diff options
| author | Tanu Kaskinen <tanuk@iki.fi> | 2012-05-10 09:19:23 +0300 |
|---|---|---|
| committer | Arun Raghavan <arun.raghavan@collabora.co.uk> | 2012-05-11 16:29:20 +0530 |
| commit | 1eb7c4a465e804c3fe6e7d34e771d6d870268473 (patch) | |
| tree | 957d30ea1ee588f4fad9c3366b141e917e0633af | |
| parent | 1a75e1c29757aeef3ea5f1b03df64aa257be4180 (diff) | |
resampler: Add support for resamplers that consume less data than asked.
libsamplerate_resample() assumed that src_process() would
always consume the whole input buffer. That was an invalid
assumption leading to crashes.
This patch adds a leftover memchunk for storing any
non-consumed input. When pa_resampler_run() is called next
time, the leftover is prepended to the new input.
Changes in v3:
- Make the calculations in pa_resampler_result() and
pa_resampler_max_block_size() more readable and more
correct.
- Rework the leftover storing: instead of using a dedicated
buffer for it, store it in the beginning of remap_buf.
This can avoid some memory copying. (The idea was
suggested by Wang Xingchao.)
- Use a generic save_leftover() function instead of doing
the leftover copying in the resampler implementation.
- Use the leftover logic also with the speex and ffmpeg
resamplers.
[ed: dropped the speex bit since the API guarantees that
it will consume everything -- Arun]
Changes in v2:
- If add_leftover() is called with zero-length input while
the leftover length is non-zero, we don't try to acquire
the input memblock.
- Instead of taking a reference to the original input in
libsamplerate_resample(), we copy the leftover data to a
new memblock. This is done, because otherwise, if the
input is one of the internal buffers, the data can get
overwritten before reading it in add_leftover().
- Store add_leftover_buf size in bytes instead of samples
(more convenient, but less consistent with other code).
BugLink: https://bugs.freedesktop.org/show_bug.cgi?id=47156
| -rw-r--r-- | src/pulsecore/resampler.c | 191 |
1 files changed, 135 insertions, 56 deletions
diff --git a/src/pulsecore/resampler.c b/src/pulsecore/resampler.c index 258d1fe2..cd95c5b2 100644 --- a/src/pulsecore/resampler.c +++ b/src/pulsecore/resampler.c @@ -61,9 +61,10 @@ struct pa_resampler { pa_memchunk resample_buf; pa_memchunk from_work_format_buf; unsigned to_work_format_buf_samples; - unsigned remap_buf_samples; + size_t remap_buf_size; unsigned resample_buf_samples; unsigned from_work_format_buf_samples; + pa_bool_t remap_buf_contains_leftover_data; pa_sample_format_t work_format; @@ -379,23 +380,39 @@ void pa_resampler_set_output_rate(pa_resampler *r, uint32_t rate) { size_t pa_resampler_request(pa_resampler *r, size_t out_length) { pa_assert(r); - /* Let's round up here */ - + /* Let's round up here to make it more likely that the caller will get at + * least out_length amount of data from pa_resampler_run(). + * + * We don't take the leftover into account here. If we did, then it might + * be in theory possible that this function would return 0 and + * pa_resampler_run() would also return 0. That could lead to infinite + * loops. When the leftover is ignored here, such loops would eventually + * terminate, because the leftover would grow each round, finally + * surpassing the minimum input threshold of the resampler. */ return (((((out_length + r->o_fz-1) / r->o_fz) * r->i_ss.rate) + r->o_ss.rate-1) / r->o_ss.rate) * r->i_fz; } size_t pa_resampler_result(pa_resampler *r, size_t in_length) { + size_t frames; + pa_assert(r); - /* Let's round up here */ + /* Let's round up here to ensure that the caller will always allocate big + * enough output buffer. */ + + frames = (in_length + r->i_fz - 1) / r->i_fz; + + if (r->remap_buf_contains_leftover_data) + frames += r->remap_buf.length / (r->w_sz * r->o_ss.channels); - return (((((in_length + r->i_fz-1) / r->i_fz) * r->o_ss.rate) + r->i_ss.rate-1) / r->i_ss.rate) * r->o_fz; + return ((frames * r->o_ss.rate + r->i_ss.rate - 1) / r->i_ss.rate) * r->o_fz; } size_t pa_resampler_max_block_size(pa_resampler *r) { size_t block_size_max; - pa_sample_spec ss; - size_t fs; + pa_sample_spec max_ss; + size_t max_fs; + size_t frames; pa_assert(r); @@ -403,17 +420,21 @@ size_t pa_resampler_max_block_size(pa_resampler *r) { /* We deduce the "largest" sample spec we're using during the * conversion */ - ss.channels = (uint8_t) (PA_MAX(r->i_ss.channels, r->o_ss.channels)); + max_ss.channels = (uint8_t) (PA_MAX(r->i_ss.channels, r->o_ss.channels)); /* We silently assume that the format enum is ordered by size */ - ss.format = PA_MAX(r->i_ss.format, r->o_ss.format); - ss.format = PA_MAX(ss.format, r->work_format); + max_ss.format = PA_MAX(r->i_ss.format, r->o_ss.format); + max_ss.format = PA_MAX(max_ss.format, r->work_format); - ss.rate = PA_MAX(r->i_ss.rate, r->o_ss.rate); + max_ss.rate = PA_MAX(r->i_ss.rate, r->o_ss.rate); - fs = pa_frame_size(&ss); + max_fs = pa_frame_size(&max_ss); + frames = block_size_max / max_fs - EXTRA_FRAMES; - return (((block_size_max/fs - EXTRA_FRAMES)*r->i_ss.rate)/ss.rate)*r->i_fz; + if (r->remap_buf_contains_leftover_data) + frames -= r->remap_buf.length / (r->w_sz * r->o_ss.channels); + + return (frames * r->i_ss.rate / max_ss.rate) * r->i_fz; } void pa_resampler_reset(pa_resampler *r) { @@ -421,6 +442,8 @@ void pa_resampler_reset(pa_resampler *r) { if (r->impl_reset) r->impl_reset(r); + + r->remap_buf_contains_leftover_data = FALSE; } pa_resample_method_t pa_resampler_get_method(pa_resampler *r) { @@ -1101,41 +1124,74 @@ static pa_memchunk* convert_to_work_format(pa_resampler *r, pa_memchunk *input) } static pa_memchunk *remap_channels(pa_resampler *r, pa_memchunk *input) { - unsigned in_n_samples, out_n_samples, n_frames; + unsigned in_n_samples, out_n_samples, in_n_frames, out_n_frames; void *src, *dst; - pa_remap_t *remap; + size_t leftover_length = 0; + pa_bool_t have_leftover; pa_assert(r); pa_assert(input); pa_assert(input->memblock); - /* Remap channels and place the result in remap_buf. */ + /* Remap channels and place the result in remap_buf. There may be leftover + * data in the beginning of remap_buf. The leftover data is already + * remapped, so it's not part of the input, it's part of the output. */ + + have_leftover = r->remap_buf_contains_leftover_data; + r->remap_buf_contains_leftover_data = FALSE; - if (!r->map_required || !input->length) + if (!have_leftover && (!r->map_required || input->length <= 0)) return input; + else if (input->length <= 0) + return &r->remap_buf; in_n_samples = (unsigned) (input->length / r->w_sz); - n_frames = in_n_samples / r->i_ss.channels; - out_n_samples = n_frames * r->o_ss.channels; + in_n_frames = out_n_frames = in_n_samples / r->i_ss.channels; - r->remap_buf.index = 0; - r->remap_buf.length = r->w_sz * out_n_samples; + if (have_leftover) { + leftover_length = r->remap_buf.length; + out_n_frames += leftover_length / (r->w_sz * r->o_ss.channels); + } + + out_n_samples = out_n_frames * r->o_ss.channels; + r->remap_buf.length = out_n_samples * r->w_sz; + + if (have_leftover) { + if (r->remap_buf_size < r->remap_buf.length) { + pa_memblock *new_block = pa_memblock_new(r->mempool, r->remap_buf.length); + + src = pa_memblock_acquire(r->remap_buf.memblock); + dst = pa_memblock_acquire(new_block); + memcpy(dst, src, leftover_length); + pa_memblock_release(r->remap_buf.memblock); + pa_memblock_release(new_block); - if (!r->remap_buf.memblock || r->remap_buf_samples < out_n_samples) { - if (r->remap_buf.memblock) pa_memblock_unref(r->remap_buf.memblock); + r->remap_buf.memblock = new_block; + r->remap_buf_size = r->remap_buf.length; + } - r->remap_buf_samples = out_n_samples; - r->remap_buf.memblock = pa_memblock_new(r->mempool, r->remap_buf.length); + } else { + if (!r->remap_buf.memblock || r->remap_buf_size < r->remap_buf.length) { + if (r->remap_buf.memblock) + pa_memblock_unref(r->remap_buf.memblock); + + r->remap_buf_size = r->remap_buf.length; + r->remap_buf.memblock = pa_memblock_new(r->mempool, r->remap_buf.length); + } } - src = ((uint8_t*) pa_memblock_acquire(input->memblock) + input->index); - dst = pa_memblock_acquire(r->remap_buf.memblock); + src = (uint8_t *) pa_memblock_acquire(input->memblock) + input->index; + dst = (uint8_t *) pa_memblock_acquire(r->remap_buf.memblock) + leftover_length; - remap = &r->remap; + if (r->map_required) { + pa_remap_t *remap = &r->remap; - pa_assert(remap->do_remap); - remap->do_remap(remap, dst, src, n_frames); + pa_assert(remap->do_remap); + remap->do_remap(remap, dst, src, in_n_frames); + + } else + memcpy(dst, src, input->length); pa_memblock_release(input->memblock); pa_memblock_release(r->remap_buf.memblock); @@ -1243,6 +1299,32 @@ void pa_resampler_run(pa_resampler *r, const pa_memchunk *in, pa_memchunk *out) pa_memchunk_reset(out); } +static void save_leftover(pa_resampler *r, void *buf, size_t len) { + void *dst; + + pa_assert(r); + pa_assert(buf); + pa_assert(len > 0); + + /* Store the leftover to remap_buf. */ + + r->remap_buf.length = len; + + if (!r->remap_buf.memblock || r->remap_buf_size < r->remap_buf.length) { + if (r->remap_buf.memblock) + pa_memblock_unref(r->remap_buf.memblock); + + r->remap_buf_size = r->remap_buf.length; + r->remap_buf.memblock = pa_memblock_new(r->mempool, r->remap_buf.length); + } + + dst = pa_memblock_acquire(r->remap_buf.memblock); + memcpy(dst, buf, r->remap_buf.length); + pa_memblock_release(r->remap_buf.memblock); + + r->remap_buf_contains_leftover_data = TRUE; +} + /*** libsamplerate based implementation ***/ #ifdef HAVE_LIBSAMPLERATE @@ -1266,7 +1348,13 @@ static void libsamplerate_resample(pa_resampler *r, const pa_memchunk *input, un data.end_of_input = 0; pa_assert_se(src_process(r->src.state, &data) == 0); - pa_assert((unsigned) data.input_frames_used == in_n_frames); + + if (data.input_frames_used < in_n_frames) { + void *leftover_data = data.data_in + data.input_frames_used * r->o_ss.channels; + size_t leftover_length = (in_n_frames - data.input_frames_used) * sizeof(float) * r->o_ss.channels; + + save_leftover(r, leftover_data, leftover_length); + } pa_memblock_release(input->memblock); pa_memblock_release(output->memblock); @@ -1595,6 +1683,7 @@ static int peaks_init(pa_resampler*r) { static void ffmpeg_resample(pa_resampler *r, const pa_memchunk *input, unsigned in_n_frames, pa_memchunk *output, unsigned *out_n_frames) { unsigned used_frames = 0, c; + int previous_consumed_frames = -1; pa_assert(r); pa_assert(input); @@ -1606,25 +1695,14 @@ static void ffmpeg_resample(pa_resampler *r, const pa_memchunk *input, unsigned pa_memblock *b, *w; int16_t *p, *t, *k, *q, *s; int consumed_frames; - unsigned in, l; /* Allocate a new block */ b = pa_memblock_new(r->mempool, r->ffmpeg.buf[c].length + in_n_frames * sizeof(int16_t)); p = pa_memblock_acquire(b); - /* Copy the remaining data into it */ - l = (unsigned) r->ffmpeg.buf[c].length; - if (r->ffmpeg.buf[c].memblock) { - t = (int16_t*) ((uint8_t*) pa_memblock_acquire(r->ffmpeg.buf[c].memblock) + r->ffmpeg.buf[c].index); - memcpy(p, t, l); - pa_memblock_release(r->ffmpeg.buf[c].memblock); - pa_memblock_unref(r->ffmpeg.buf[c].memblock); - pa_memchunk_reset(&r->ffmpeg.buf[c]); - } - - /* Now append the new data, splitting up channels */ + /* Now copy the input data, splitting up channels */ t = ((int16_t*) ((uint8_t*) pa_memblock_acquire(input->memblock) + input->index)) + c; - k = (int16_t*) ((uint8_t*) p + l); + k = (int16_t*) ((uint8_t*) p); for (u = 0; u < in_n_frames; u++) { *k = *t; t += r->o_ss.channels; @@ -1632,9 +1710,6 @@ static void ffmpeg_resample(pa_resampler *r, const pa_memchunk *input, unsigned } pa_memblock_release(input->memblock); - /* Calculate the resulting number of frames */ - in = (unsigned) in_n_frames + l / (unsigned) sizeof(int16_t); - /* Allocate buffer for the result */ w = pa_memblock_new(r->mempool, *out_n_frames * sizeof(int16_t)); q = pa_memblock_acquire(w); @@ -1643,19 +1718,15 @@ static void ffmpeg_resample(pa_resampler *r, const pa_memchunk *input, unsigned used_frames = (unsigned) av_resample(r->ffmpeg.state, q, p, &consumed_frames, - (int) in, (int) *out_n_frames, + (int) in_n_frames, (int) *out_n_frames, c >= (unsigned) (r->o_ss.channels-1)); pa_memblock_release(b); + pa_memblock_unref(b); - /* Now store the remaining samples away */ - pa_assert(consumed_frames <= (int) in); - if (consumed_frames < (int) in) { - r->ffmpeg.buf[c].memblock = b; - r->ffmpeg.buf[c].index = (size_t) consumed_frames * sizeof(int16_t); - r->ffmpeg.buf[c].length = (size_t) (in - (unsigned) consumed_frames) * sizeof(int16_t); - } else - pa_memblock_unref(b); + pa_assert(consumed_frames <= (int) in_n_frames); + pa_assert(previous_consumed_frames == -1 || consumed_frames == previous_consumed_frames); + previous_consumed_frames = consumed_frames; /* And place the results in the output buffer */ s = (short*) ((uint8_t*) pa_memblock_acquire(output->memblock) + output->index) + c; @@ -1669,6 +1740,14 @@ static void ffmpeg_resample(pa_resampler *r, const pa_memchunk *input, unsigned pa_memblock_unref(w); } + if (previous_consumed_frames < (int) in_n_frames) { + void *leftover_data = (int16_t *) ((uint8_t *) pa_memblock_acquire(input->memblock) + output->index) + previous_consumed_frames * r->o_ss.channels; + size_t leftover_length = (in_n_frames - previous_consumed_frames) * r->o_ss.channels * sizeof(int16_t); + + save_leftover(r, leftover_data, leftover_length); + pa_memblock_release(input->memblock); + } + *out_n_frames = used_frames; } |